Real-Time Embedded Systems Concepts and Practices

Course Feature
  • Cost
    Free
  • Provider
    Coursera
  • Certificate
    Paid Certification
  • Language
    English
  • Start Date
    No Information
  • Learners
    No Information
  • Duration
    No Information
  • Instructor
    Real-Time Embedded Systems Specialization
Next Course
3.0
0 Ratings
This course provides an introduction to the design and implementation of real-time embedded systems. Students will learn the fundamentals of embedded system design, including the use of microprocessors, real-time operating systems, and embedded Linux. Through hands-on labs, students will gain experience in designing and building a microprocessor-based embedded system application. The course will also cover topics such as digital command and control, system integration, and debugging.
Show All
Course Overview

❗The content presented here is sourced directly from Coursera platform. For comprehensive course details, including enrollment information, simply click on the 'Go to class' link on our website.

Updated in [May 30th, 2023]

Introduction: Real-Time Embedded Systems Concepts and Practices is an online course that provides students with the knowledge and skills to design and build a microprocessor-based embedded system application using a real-time operating system or RT POSIX extensions with Embedded Linux. This course is ideal for those who are interested in pursuing a career in embedded systems engineering, or for those who are already in the field and want to expand their knowledge.

Possible Development Paths: This course is a great starting point for those who are interested in pursuing a career in embedded systems engineering. After completing this course, students can further their education by taking more advanced courses in embedded systems engineering, such as Embedded Systems Design and Programming, Embedded Systems Security, and Embedded Systems Architecture. These courses will provide students with the skills and knowledge to design and develop embedded systems for a variety of applications.

Related Learning Suggestions: In addition to taking more advanced courses in embedded systems engineering, students can also benefit from taking courses in computer engineering, computer science, and electrical engineering. These courses will provide students with the skills and knowledge to design and develop computer systems and software applications. Additionally, students can also benefit from taking courses in mathematics, physics, and engineering to gain a better understanding of the fundamentals of embedded systems engineering.

Show All
Recommended Courses
free design-over-under-voltage-protection-circuit-5994
Design Over & Under Voltage Protection Circuit
3.9
Udemy 9,900 learners
Learn More
This tutorial provides an overview of electric stabilizers and how to design an over and under voltage protection circuit. Gain the knowledge to create your own circuit and protect your electrical devices.
free fundamentals-of-dc-circuits-with-tips-and-tricks-5995
Fundamentals of DC Circuits with Tips and Tricks
3.0
Udemy 1,200 learners
Learn More
This course provides an introduction to the fundamentals of DC Circuits, including tips and tricks for successful analysis. Students will gain a comprehensive understanding of the principles and applications of DC Circuits.
free fundamental-concepts-of-electricity-5996
Fundamental Concepts of Electricity
3.0
Swayam 33 learners
Learn More
The "Fundamental Concepts of Electricity" course explores essential concepts in electricity supply systems using analysis, real-life examples, and experimental demonstrations. The course emphasizes the connection between theory, practical experiments, and real-world applications. It revisits fundamental topics that have gained significance due to recent developments affecting the structure, operation, and control of power systems. Covered subjects include transient and steady-state behavior of electrical components, modeling considerations for electrical elements, three-phase connections, neutral and grounding, protection and switching. The course also delves into power generation control, power conditioning with power electronics converters, electrical waveform components, power quality, transmission lines/transformers, large power grids, frequency, voltage control, and modern power system developments like renewable energy, wide-area measurement systems, and high-power applications utilizing power electronics.
free physics-basics-of-electricity-for-grade-10-5997
Physics : Basics of Electricity for grade 10
4.2
Udemy 3,103 learners
Learn More
The "Physics: Basics of Electricity for Grade 10" course offers a self-paced learning experience designed to help Physics students, as well as others seeking to understand fundamental concepts through numerous examples and straightforward explanations. The course includes animations and video lectures, allowing learners to revisit the content as needed to grasp basic Science concepts. It covers essential topics such as circuits, electrical symbols, potential difference, resistance, Ohm's Law, resistivity, electric power, and heating effects of electric current. Additionally, the course provides NCERT solutions for Class 10 Physics Chapter 12 exercises and bonus questions related to electricity.
Favorites (0)
Favorites
0 favorite option

You have no favorites

Name delet
arrow Click Allow to get free Real-Time Embedded Systems Concepts and Practices courses!